I had the exact same issue, when I saved the file it was one way, but the image returned in memory was the exact opposite.
The culprit & the solution was UIImagePNGRepresentation(). It fixes the in-app image before saving it to disk, so I just inserted that function as the last step in creating the masked image and returning that.
This may not be the most elegant solution, but it works. I copied some code from my app and condensed it, not sure if this code below works as is, but if not, its close... maybe just some typos.
Enjoy. :)
// MyImageHelperObj.h
@interface MyImageHelperObj : NSObject
+ (UIImage *) createGrayScaleImage:(UIImage*)originalImage;
+ (UIImage *) createMaskedImageWithSize:(CGSize)newSize sourceImage:(UIImage *)sourceImage maskImage:(UIImage *)maskImage;
@end
// MyImageHelperObj.m
#import <QuartzCore/QuartzCore.h>
#import "MyImageHelperObj.h"
@implementation MyImageHelperObj
+ (UIImage *) createMaskedImageWithSize:(CGSize)newSize sourceImage:(UIImage *)sourceImage maskImage:(UIImage *)maskImage;
{
// create image size rect
CGRect newRect = CGRectZero;
newRect.size = newSize;
// draw source image
UIGraphicsBeginImageContextWithOptions(newRect.size, NO, 0.0f);
[sourceImage drawInRect:newRect];
UIImage *newImage = UIGraphicsGetImageFromCurrentImageContext();
// draw mask image
[maskImage drawInRect:newRect blendMode:kCGBlendModeNormal alpha:1.0f];
maskImage = UIGraphicsGetImageFromCurrentImageContext();
UIGraphicsEndImageContext();
// create grayscale version of mask image to make the "image mask"
UIImage *grayScaleMaskImage = [MyImageHelperObj createGrayScaleImage:maskImage];
CGFloat width = CGImageGetWidth(grayScaleMaskImage.CGImage);
CGFloat height = CGImageGetHeight(grayScaleMaskImage.CGImage);
CGFloat bitsPerPixel = CGImageGetBitsPerPixel(grayScaleMaskImage.CGImage);
CGFloat bytesPerRow = CGImageGetBytesPerRow(grayScaleMaskImage.CGImage);
CGDataProviderRef providerRef = CGImageGetDataProvider(grayScaleMaskImage.CGImage);
CGImageRef imageMask = CGImageMaskCreate(width, height, 8, bitsPerPixel, bytesPerRow, providerRef, NULL, false);
CGImageRef maskedImage = CGImageCreateWithMask(newImage.CGImage, imageMask);
CGImageRelease(imageMask);
newImage = [UIImage imageWithCGImage:maskedImage];
CGImageRelease(maskedImage);
return [UIImage imageWithData:UIImagePNGRepresentation(newImage)];
}
+ (UIImage *) createGrayScaleImage:(UIImage*)originalImage;
{
//create gray device colorspace.
CGColorSpaceRef space = CGColorSpaceCreateDeviceGray();
//create 8-bit bimap context without alpha channel.
CGContextRef bitmapContext = CGBitmapContextCreate(NULL, originalImage.size.width, originalImage.size.height, 8, 0, space, kCGImageAlphaNone);
CGColorSpaceRelease(space);
//Draw image.
CGRect bounds = CGRectMake(0.0, 0.0, originalImage.size.width, originalImage.size.height);
CGContextDrawImage(bitmapContext, bounds, originalImage.CGImage);
//Get image from bimap context.
CGImageRef grayScaleImage = CGBitmapContextCreateImage(bitmapContext);
CGContextRelease(bitmapContext);
//image is inverted. UIImage inverts orientation while converting CGImage to UIImage.
UIImage* image = [UIImage imageWithCGImage:grayScaleImage];
CGImageRelease(grayScaleImage);
return image;
}
@end